Nanoclusters Break Superconductivity Record
KentuckyFC writes "A couple of years ago, two Russian physicists predicted that metal nanoclusters with exactly the right number of delocalized electrons (a few hundred or so) could become strong superconductors. Now an American group has found the first evidence that this prediction is correct in individual aluminium nanoclusters containing 45 or 47 atoms. And they found it at 200 K (abstract). That's a huge jump over the previous record of 138K for a high-temperature superconductor. There are a few caveats, however. The result is only partial evidence of superconductivity and the work has yet to be peer-reviewed. But its mere publication will set scientists scrambling to confirm. And 200K! That's practically room temperature in the Siberian winter."
However, it's really unclear if it's possible to make a BULK superconductor out of this. The effect depends on a nanocluster having the correct number of atoms. Once you put two together you have - a nanocluster with the wrong number of atoms. Which is to say, a little piece of aluminum. Perhaps you could have a bunch of cluster that were separated enough to be weakly coupled so you could maintain the superconducting state, but allow current flow. But there's a whole lot of "ifs" between here and there.
What I find exciting about this is the ability to theoretically predict the properties of nanoclusters (to say nothing of fabricating and measuring them.) Understanding nanoclusters is a step in the direction of engineering bulk materials from first principles with the characteristics you need. You know how much time and effort went into discovering Halfnium as a component for a dielectric in transistor fabrication? Imagine if that could have been discovered by running a supercomputer for a while until it found the compound with the desired properties. THAT is where this will ultimately go.
It's not wasting time, I'm educating myself.